CN113525481B

CN113525481B - PE heat shrink film conveying and film pressing device

Info

Publication number: CN113525481B
Application number: CN202111067494.1A
Authority: CN
Inventors: 徐福芹
Original assignee: Jiangsu Huihai New Material Technology Co ltd
Current assignee: Jiangsu Huihai New Material Technology Co ltd
Priority date: 2021-09-13
Filing date: 2021-09-13
Publication date: 2021-12-07
Anticipated expiration: 2041-09-13
Also published as: CN113525481A

Abstract

The invention discloses a PE heat shrinkable film conveying and film pressing device which comprises a machine body shell, wherein a machine body cavity is arranged in the machine body shell, a film pressing mechanism is arranged in the machine body cavity and comprises a first motor fixedly connected to the inner wall of the upper side of the machine body cavity, the PE heat shrinkable film is pressed by a gear transmission principle and a belt transmission principle and is conveyed by an elliptical cam structure, and a film pressing roller can stretch by a thread transmission principle, so that the device can press films on heat shrinkable films with different sizes.

Description

PE heat shrink film conveying and film pressing device

Technical Field

The invention relates to the technical field of film transportation, in particular to a PE heat shrinkable film conveying and film pressing device.

Background

Heat shrinkable films are used for the sale and transportation of various products, the main function of which is to stabilize, cover and protect the product. The heat shrinkable film must have high puncture resistance, good shrinkability and a certain shrinkage stress. During the shrinking process, the film is not able to create holes. The PE heat shrinkable film needs to be subjected to film pressing treatment during transportation, so that the heat shrinkable film is prevented from being wrinkled, and the heat shrinkable film is easily damaged if a transportation device is impacted.

Disclosure of Invention

The invention aims to provide a PE heat shrinkable film conveying and film pressing device, which is used for overcoming the defects in the prior art.

The PE heat shrinkable film conveying and film pressing device comprises a machine body shell, a machine body cavity is arranged in the machine body shell, a film pressing mechanism is arranged in the machine body cavity and comprises a first motor fixedly connected to the inner wall of the upper side of the machine body cavity, a first transmission shaft is in power connection with the lower side of the first motor, an elliptical cam is arranged on the lower side of the first transmission shaft, a supporting plate is fixedly connected to the inner wall of the machine body cavity, supporting rods which are bilaterally symmetrical relative to the first transmission shaft are slidably connected to the supporting plate, abutting boxes which are abutted to the elliptical cam are arranged on the supporting rods, a film pressing roller is rotatably connected to the lower side of the supporting rods, a bottom plate which is positioned on the lower side of the symmetrical film pressing roller is slidably connected to the inner wall of the machine body cavity, a rubber column is fixedly connected to the bottom plate, and a supporting table is fixedly connected to the rubber column, a buffer spring is fixedly connected between the supporting table and the bottom plate, a heat shrinkable film is arranged on the supporting table and is positioned at the lower side of the film pressing roller and abutted against the film pressing roller, an expansion cavity is arranged in the abutting box, an expansion plate which is symmetrical in the front and back directions of the first transmission shaft is connected in the expansion cavity in a sliding manner, a reset plate which is symmetrical in the left and right directions of the first transmission shaft is arranged on one side, far away from the first transmission shaft, of the expansion plate, a reset spring is fixedly connected between the reset plates which are symmetrical in the left and right directions, after the first motor is started, the first transmission shaft can be driven to rotate, so that the elliptic cam is driven to rotate, through a cam transmission principle, the abutting box which is symmetrical in the left and right directions is driven to slide towards the direction far away from the first transmission shaft simultaneously, the reset spring is stretched, so that the supporting rod is driven to move along with the reset spring, the machine body cavity is also provided with an anti-collision transportation mechanism, and the anti-collision transportation mechanism can protect the heat shrinkable film when the heat shrinkable film is collided in the transportation process.

In a further technical scheme, a second motor is fixedly connected to the front side of the abutting box, a second transmission shaft extending into the expansion cavity is connected to the second motor in a power connection manner, the second transmission shaft is rotatably connected with the abutting box, a supporting block is fixedly connected to the inner wall of the expansion cavity, a threaded rod is rotatably connected to the supporting block and is in threaded connection with the symmetrical expansion plates, symmetrical boxes symmetrical to the first transmission shaft are arranged on the left side and the right side of the elliptical cam, symmetrical cavities are arranged in the symmetrical boxes, symmetrical plates symmetrical to the expansion plates are slidably connected in the symmetrical cavities, connecting springs are fixedly connected between the symmetrical plates, the symmetrical plates are fixedly connected with the reset plates on the right sides of the reset springs, and when the second motor is started, the second transmission shaft can be driven to rotate, through the gear drive principle, can drive the threaded rod rotates, through the screw drive principle, can drive the symmetry the expansion board is simultaneously to keeping away from the second transmission shaft direction slides, meanwhile, in the symmetry intracavity the symmetry board because the effect of the board that resets is also simultaneously to keeping away from the connecting spring direction slides, connecting spring is tensile, thereby enlarge by the expansion board with the length that the butt joint case is constituteed.

Further technical scheme, be equipped with in the squeeze film roller and expand the chamber, expand intracavity sliding connection have with squeeze film roller sliding connection's amplification roller works as when the board that resets slides to both sides around, can drive the bracing piece slides to both sides around, thereby drives the symmetry squeeze film roller is in slide to both sides on the amplification roller, thereby enlarge squeeze film roller with the length that the amplification roller is constituteed.

According to the technical scheme, a disc located on the lower side of the elliptical cam is arranged on the lower side of the first transmission shaft, a sliding plate located on the lower side of the disc is connected to the supporting plate in a sliding mode, a horizontal sliding groove is formed in the sliding plate, a rotating shaft which is located in the horizontal sliding groove and is connected with the sliding plate in a sliding mode is fixedly connected to the lower side of the disc, a supplement roller which is connected with the thermal shrinkage film in a butting mode is connected to the lower side of the sliding plate in a rotating mode, when the first transmission shaft rotates, the disc can be driven to rotate, the rotating shaft is driven to rotate with the first transmission shaft as the circle center, the sliding plate can be driven to slide left and right under the action of the horizontal sliding groove, the supplement roller is driven to slide left and right, and accordingly the supplement roller is used for pressing the thermal shrinkage film between the film pressing rollers symmetrically.

Further technical scheme, anticollision transport mechanism is including setting up the base of engine body shell downside, be equipped with the transmission chamber that the opening is decurrent in the base, transmission intracavity fixedly connected with third motor, power connection has the third transmission shaft on the third motor, the third transmission shaft about first motor bilateral symmetry and rotation are connected on the transmission intracavity wall, the symmetry all be equipped with the wheel on the third transmission shaft, the symmetry connect through the belt drive between the third transmission shaft, start the third motor can drive the third transmission shaft rotates, connects the principle through the belt drive, and the symmetry the third transmission shaft all rotates, thereby drives the wheel rotates, can with engine body shell removes to the left and right sides.

In a further technical scheme, first grooved wheels are arranged on the third transmission shaft, a fourth transmission shaft extending into the machine body cavity is rotatably connected to the machine body shell, the fourth transmission shaft is symmetrical with the first transmission shaft in the front-back and left-right directions, the fourth transmission shaft is divided into four groups, resistance fan blades positioned on the outer side of the machine body cavity are arranged on the fourth transmission shaft, the fourth transmission shaft symmetrical in the front-back direction are in belt transmission connection between the fourth transmission shafts, a fifth transmission shaft connected with a gear pair of the fourth transmission shaft is rotatably connected to the inner wall of the machine body cavity, a second grooved wheel positioned on the upper side of the first grooved wheel is arranged on the fifth transmission shaft, a transmission belt is slidably connected between the second grooved wheel and the first grooved wheel, a sixth transmission shaft positioned on one side of the transmission belt close to the first motor is rotatably connected to the left and right sides of the supporting table, and a third grooved wheel is arranged on the sixth transmission shaft, when the base is impacted or suddenly decelerated, the support table slides towards the left side under the action of motion inertia, namely the support table slides towards the left side, so that the sixth transmission shaft can be driven to slide towards the left side, the third grooved wheel is in contact with the transmission belt and extrudes the transmission belt, the transmission belt can be in full contact with the second grooved wheel and the first grooved wheel, when the third transmission shaft rotates, the fifth transmission shaft can be driven to rotate by the belt transmission principle, so that the fourth transmission shaft is driven to rotate by the gear transmission principle, the resistance fan blades are driven to rotate, and wind power in the direction opposite to the motion direction can be generated by the resistance fan blades, namely, the resistance fan blades can block the machine body shell from continuously moving towards the speed direction when rotating, so that the machine body is decelerated, collision is prevented, and damage is reduced.

The invention has the beneficial effects that: the invention utilizes the gear transmission principle and the belt transmission principle, utilizes the elliptical cam structure to ensure that the PE heat shrinkable film carries out film pressing work during transportation, and utilizes the thread transmission principle to ensure that the film pressing roller can stretch out and draw back, so that the device can press films on heat shrinkable films with different sizes.

Drawings

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic view of the overall structure of a PE heat shrinkable film conveying and laminating device according to the present invention;

FIG. 3 is a schematic view of A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of B-B of FIG. 2 according to the present invention;

FIG. 5 is an enlarged partial schematic view of C of FIG. 3 in accordance with the present invention;

fig. 6 is a schematic view of D-D of fig. 2 of the present invention.

In the figure, 11, the housing; 12. a body cavity; 13. a first motor; 14. a first drive shaft; 15. an elliptical cam; 16. a butt box; 17. a support bar; 18. a support plate; 19. a film pressing roller; 20. a base plate; 21. a rubber column; 22. a support table; 23. a heat shrinkable film; 24. a disc; 25. a rotating shaft; 26. a sliding plate; 27. a horizontal chute; 28. a replenishing roller; 29. an expansion chamber; 30. a second motor; 31. a second drive shaft; 32. a threaded rod; 33. a support block; 34. an expansion board; 35. a reset plate; 36. a return spring; 37. a symmetrical box; 38. a symmetrical cavity; 39. a symmetric plate; 40. a connecting spring; 41. a base; 42. a third drive shaft; 43. a wheel; 44. a first sheave; 45. a transmission belt; 46. a fifth drive shaft; 47. a second sheave; 48. a fourth drive shaft; 49. resistance fan blades; 50. a sixth drive shaft; 51. a third sheave; 52. a third motor; 53. an amplification chamber; 54. an amplification roller; 55. a buffer spring; 56. a transmission cavity; 901. a film pressing mechanism; 902. anticollision transport mechanism.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the invention, taken in conjunction with the examples, should be understood that the following text is only intended to describe one or several specific embodiments of the invention, and not to strictly limit the scope of the invention as specifically claimed, and as used herein, the terms up, down, left and right are not limited to their strict geometric definitions, but include tolerances for reasonable and inconsistent machining or human error, the following detailed description of which is provided for the specific features of the PE heat shrinkable film transfer lamination apparatus:

referring to the drawings, a PE heat shrinkable film conveying and film pressing device according to an embodiment of the present invention includes a machine body shell 11, a machine body cavity 12 is disposed in the machine body shell 11, a film pressing mechanism 901 is disposed in the machine body cavity 12, the film pressing mechanism 901 includes a first motor 13 fixedly connected to an inner wall of an upper side of the machine body cavity 12, a first transmission shaft 14 is power connected to a lower side of the first motor 13, an elliptical cam 15 is disposed at a lower side of the first transmission shaft 14, a supporting plate 18 is fixedly connected to an inner wall of the machine body cavity 12, a supporting rod 17 which is bilaterally symmetrical to the first transmission shaft 14 is slidably connected to the supporting plate 18, an abutting box 16 which abuts against the elliptical cam 15 is disposed on the supporting rod 17, a film pressing roller 19 is rotatably connected to a lower side of the supporting rod 17, a bottom plate 20 which is located at a lower side of the symmetrical film pressing roller 19 is slidably connected to an inner wall of the machine body cavity 12, fixedly connected with rubber column 21 on the bottom plate 20, fixedly connected with brace table 22 on the rubber column 21, brace table 22 with fixedly connected with buffer spring 55 between the bottom plate 20, be equipped with on brace table 22 be located squeeze film roller 19 downside and with the heat shrink film 23 of squeeze film roller 19 butt, be equipped with extension chamber 29 in the butt case 16, extension chamber 29 internal sliding connection is about the expansion board 34 of first transmission shaft 14 longitudinal symmetry, and symmetrical expansion board 34 is kept away from first transmission shaft 14 one side is equipped with about the board 35 that resets of first transmission shaft 14 bilateral symmetry, bilateral symmetry fixedly connected with reset spring 36 between the board 35 that resets, after first motor 13 starts, can drive first transmission shaft 14 rotates to drive elliptical cam 15 rotates, through the cam drive principle, thereby drive bilateral symmetry the butt box 16 simultaneously to keeping away from first transmission shaft 14 direction slides, reset spring 36 is tensile, thereby drive bracing piece 17 removes along with it, thereby drive press mold roller 19 roll on heat shrinkable film 23, can carry out the press mold work to heat shrinkable film 23, still be equipped with crashproof transport mechanism 902 in the locomotive coelom 12, through crashproof transport mechanism 902 can protect when receiving the collision in the transportation heat shrinkable film 23.

Advantageously or exemplarily, a second motor 30 is fixedly connected to the front side of the abutting box 16, a second transmission shaft 31 extending into the expanding cavity 29 is connected to the second motor 30 by power, the second transmission shaft 31 is rotatably connected to the abutting box 16, a supporting block 33 is fixedly connected to the inner wall of the expanding cavity 29, a threaded rod 32 is rotatably connected to the supporting block 33, the threaded rod 32 is in threaded connection with the symmetrical expanding plates 34, symmetrical boxes 37 symmetrical with respect to the first transmission shaft 14 are respectively arranged on the left and right sides of the elliptical cam 15, symmetrical cavities 38 are arranged in the symmetrical boxes 37, symmetrical plates 39 symmetrical with the expanding plates 34 are slidably connected in the symmetrical cavities 38, connecting springs 40 are fixedly connected between the symmetrical plates 39, the symmetrical plates 39 are fixedly connected to the reset plates 35 located on the right side of the reset springs 36, work as after second motor 30 starts, can drive second transmission shaft 31 rotates, through the gear drive principle, can drive threaded rod 32 rotates, through the thread drive principle, can drive the symmetry expansion board 34 is simultaneously to keeping away from second transmission shaft 31 direction slides, meanwhile, in the symmetrical chamber 38 symmetry board 39 owing reset the effect of board 35 also simultaneously to keeping away from connecting spring 40 direction slides, connecting spring 40 is tensile, thereby enlarge by expansion board 34 with the length that butt joint case 16 is constituteed.

Advantageously or exemplarily, an amplification chamber 53 is provided in the squeeze film roller 19, an amplification roller 54 slidably connected to the squeeze film roller 19 is slidably connected in the amplification chamber 53, and when the reset plate 35 slides to the front and back sides, the support rod 17 is driven to slide to the front and back sides, so as to drive the symmetric squeeze film roller 19 to slide to the two sides on the amplification roller 54, thereby expanding the length formed by the squeeze film roller 19 and the amplification roller 54.

Advantageously or exemplarily, the first transmission shaft 14 is provided, on the lower side thereof, with a disc 24 located on the lower side of the elliptical cam 15, a sliding plate 26 is slidably connected to the supporting plate 18 and is positioned on the lower side of the disc 24, a horizontal sliding groove 27 is formed in the sliding plate 26, a rotating shaft 25 which is positioned in the horizontal sliding groove 27 and is slidably connected with the sliding plate 26 is fixedly connected with the lower side of the disc 24, a supplementary roller 28 is rotatably connected to the lower side of the sliding plate 26 to abut against the heat shrinkable film 23, and when the first transmission shaft 14 is rotated, the disc 24 is driven to rotate, so that the rotating shaft 25 is driven to rotate around the first transmission shaft 14, and due to the action of the horizontal sliding groove 27, the sliding plate 26, and thus the supplementary roller 28, is slid left and right, so that the heat-shrinkable film 23 between the symmetric squeeze rollers 19 is squeezed by the supplementary roller 28.

Beneficially or exemplarily, the anti-collision transportation mechanism 902 includes a base 41 disposed on the lower side of the machine body shell 11, a transmission cavity 56 with a downward opening is disposed in the base 41, a third motor 52 is fixedly connected in the transmission cavity 56, a third transmission shaft 42 is power-connected to the third motor 52, the third transmission shafts 42 are bilaterally symmetric with respect to the first motor 13 and rotatably connected to the inner wall of the transmission cavity 56, wheels 43 are disposed on the symmetrical third transmission shafts 42, and the symmetrical third transmission shafts 42 are in belt transmission connection with each other, and when the third motor 52 is activated, the third transmission shafts 42 are driven to rotate, and by the belt transmission connection principle, the symmetrical third transmission shafts 42 are all rotated, so that the wheels 43 are driven to rotate, and the machine body shell 11 is moved leftwards and rightwards.

Beneficially or exemplarily, a first grooved wheel 44 is disposed on the third transmission shaft 42, a fourth transmission shaft 48 extending into the machine body cavity 12 is rotatably connected to the machine body shell 11, four sets of the fourth transmission shafts 48, which are symmetrical front and back and left and right with respect to the first transmission shaft 14, are disposed on the fourth transmission shafts 48, which are located outside the machine body cavity 12, the fourth transmission shafts 48, which are symmetrical front and back, are in belt transmission connection, a fifth transmission shaft 46, which is connected with a gear pair of the fourth transmission shaft 48, is rotatably connected to an inner wall of the machine body cavity 12, a second grooved wheel 47, which is located on an upper side of the first grooved wheel 44, is disposed on the fifth transmission shaft 46, a transmission belt 45 is slidably connected between the second grooved wheel 47 and the first grooved wheel 44, and a sixth transmission shaft 50, which is located on a side of the transmission belt 45, which is close to the first motor 13, is rotatably connected to left and right sides of the support table 22, the sixth transmission shaft 50 is provided with a third sheave 51, when the vehicle is running normally, the transmission belt 45 is in a loose state, so that the third transmission shaft 42 is not enough to drive the fifth transmission shaft 46 to rotate when rotating, when the base 41 is impacted or suddenly decelerated, the support table 22 slides in a speed direction due to inertia, taking the left side as an example, the support table 22 slides to the left side, and then the sixth transmission shaft 50 can be driven to slide to the left side, the third sheave 51 contacts with the transmission belt 45 and extrudes the transmission belt 45, the transmission belt 45 can fully contact with the second sheave 47 and the first sheave 44, when the third transmission shaft 42 rotates, the fifth transmission shaft 46 can be driven to rotate by a belt transmission principle, so that the fourth transmission shaft 48 is driven to rotate by a gear transmission principle, and the resistance fan 49 is driven to rotate, the resistance fan 49 can generate wind power in the direction opposite to the movement direction, that is, the resistance fan 49 can prevent the machine body shell 11 from continuously moving in the speed direction when rotating, so that the machine body is decelerated, collision is prevented, and injury is reduced.

The invention relates to a PE heat shrinkable film conveying and film pressing device, which comprises the following working procedures:

when the device normally works, the first motor 13 is started, the first transmission shaft 14 can be driven to rotate, thereby driving the elliptical cam 15 to rotate, driving the left and right symmetrical abutting boxes 16 to simultaneously slide in the direction away from the first transmission shaft 14 through the cam transmission principle, stretching the return spring 36, thereby driving the supporting rod 17 to move along with the supporting rod, thereby driving the film pressing roller 19 to roll on the heat shrinkable film 23, the heat shrinkable film 23 is pressed, and at the same time, when the first transmission shaft 14 is rotated, the disc 24 is driven to rotate, so that the rotating shaft 25 is driven to rotate around the first transmission shaft 14, and due to the action of the horizontal sliding groove 27, the sliding plate 26, and thus the supplementary roller 28, is slid left and right, so that the heat-shrinkable film 23 between the symmetric squeeze rollers 19 is squeezed by the supplementary roller 28; the third motor 52 is started to drive the third transmission shaft 42 to rotate, and the symmetrical third transmission shafts 42 rotate according to the belt transmission connection principle, so as to drive the wheels 43 to rotate, so that the machine body shell 11 can be moved to the left and right sides, and the heat shrinkage film 23 can be transported by using the machine body shell 11;

when the area of the diffusion membrane is needed, the second motor 30 is started to drive the second transmission shaft 31 to rotate, and through the gear transmission principle, the threaded rod 32 can be driven to rotate, the symmetrical expansion plates 34 can be driven to slide towards the direction far away from the second transmission shaft 31 through the thread transmission principle, at the same time, the symmetrical plate 39 in the symmetrical cavity 38 also slides away from the connecting spring 40 due to the action of the return plate 35, the connecting spring 40 stretches, thereby expanding the length composed of the expansion plate 34 and the abutting box 16, and when the returning plate 35 is slid to the front and rear sides, the supporting rod 17 can be driven to slide to the front side and the back side, so that the film pressing roller 19 which is symmetrical is driven to slide to the two sides on the amplification roller 54, and the length formed by the film pressing roller 19 and the amplification roller 54 is enlarged;

when the base 41 is impacted or suddenly decelerated, the supporting table 22 slides in a speed direction due to inertia, taking the left side as an example, the supporting table 22 slides in the left side, i.e. the sixth transmission shaft 50 can be driven to slide in the left side, the third sheave 51 is in contact with the transmission belt 45 and extrudes the transmission belt 45, the transmission belt 45 can be fully in contact with the second sheave 47 and the first sheave 44, when the third transmission shaft 42 rotates, the fifth transmission shaft 46 can be driven to rotate by a belt transmission principle, so that the fourth transmission shaft 48 is driven to rotate by a gear transmission principle, thereby driving the resistance fan blades 49 to rotate, the resistance fan blades 49 can generate wind power in a direction opposite to the movement direction, i.e. the resistance fan blades 49 can block the machine body shell 11 to continuously move in the speed direction when rotating, therefore, the machine body is decelerated, collision is prevented, and damage is reduced.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides a PE thermal contraction membrane carries press mold device, includes organism shell, establish organism chamber in the organism shell, its characterized in that: the machine body cavity is internally provided with a film pressing mechanism, the film pressing mechanism comprises a first motor fixedly connected on the inner wall of the upper side of the machine body cavity, the lower side of the first motor is in power connection with a first transmission shaft, the lower side of the first transmission shaft is provided with an elliptical cam, the inner wall of the machine body cavity is fixedly connected with a support plate, the support plate is in sliding connection with a support rod which is in bilateral symmetry with the first transmission shaft, the support rod is provided with a butt box which is in butt connection with the elliptical cam, the lower side of the support rod is in rotating connection with a film pressing roller, the inner wall of the machine body cavity is in sliding connection with a bottom plate which is positioned on the lower side of the film pressing roller in symmetry, the bottom plate is fixedly connected with a rubber column, the rubber column is fixedly connected with a support table, a buffer spring is fixedly connected between the support table and the bottom plate, and the support table is provided with a heat shrinkage film which is positioned on the lower side of the film pressing roller and is in butt connection with the film pressing roller, the butt incasement is equipped with the extension chamber, extension intracavity sliding connection is about the expansion board of first transmission shaft longitudinal symmetry, the symmetry the expansion board is kept away from first transmission shaft one side be equipped with about first transmission shaft bilateral symmetry's the board that resets, bilateral symmetry fixedly connected with reset spring between the board that resets, the organism intracavity still is equipped with crashproof transport mechanism.

2. The PE heat shrinkable film conveying and laminating device as claimed in claim 1, wherein: butt joint case front side fixedly connected with second motor, power connection has on the second motor extend to the second transmission shaft of extension intracavity, the second transmission shaft with the butt case rotates the connection, fixedly connected with supporting shoe on the extension intracavity wall, rotate on the supporting shoe and be connected with the threaded rod, the threaded rod with extension board threaded connection, the left and right sides of elliptical cam all is equipped with about the symmetry case of first transmission shaft symmetry, the symmetry incasement is equipped with the symmetry chamber, symmetry intracavity sliding connection have with the symmetry board of extension board symmetry, the symmetry fixedly connected with connecting spring between the symmetry board, the symmetry board with be located reset spring right side reset board fixed connection.

3. The PE heat shrinkable film conveying and laminating device as claimed in claim 1, wherein: the squeeze film roller is internally provided with an amplification cavity, and the amplification cavity is internally and slidably connected with an amplification roller which is slidably connected with the squeeze film roller.

4. The PE heat shrinkable film conveying and laminating device as claimed in claim 1, wherein: the lower side of the first transmission shaft is provided with a disk positioned on the lower side of the elliptical cam, the supporting plate is connected with a sliding plate positioned on the lower side of the disk in a sliding mode, a horizontal sliding groove is formed in the sliding plate, the lower side of the disk is fixedly connected with a rotating shaft which is positioned in the horizontal sliding groove and is connected with the sliding plate in a sliding mode, and the lower side of the sliding plate is connected with a supplementary roller which is abutted to the heat shrinkable film in a rotating mode.

5. The PE heat shrinkable film conveying and laminating device as claimed in claim 1, wherein: anticollision transport mechanism is including setting up engine body shell downside base, be equipped with the transmission chamber that the opening is decurrent in the base, transmission intracavity fixedly connected with third motor, power connection has the third transmission shaft on the third motor, the third transmission shaft about first motor bilateral symmetry and rotation are connected on the transmission intracavity wall, the symmetry all be equipped with the wheel on the third transmission shaft, the symmetry connect through the belt drive between the third transmission shaft.

6. A PE heat shrinkable film conveying and laminating device as claimed in claim 5, wherein: the third transmission shaft is provided with a first grooved wheel, the machine body shell is rotatably connected with a fourth transmission shaft extending into the machine body cavity, the fourth transmission shafts are symmetrical in front-back and left-right directions relative to the first transmission shaft, the number of the fourth transmission shafts is four, the fourth transmission shaft is provided with resistance fan blades positioned outside the machine body cavity, the fourth transmission shafts which are symmetrical in front and back are in belt transmission connection, a fifth transmission shaft connected with the fourth transmission shaft gear pair is rotatably connected on the inner wall of the machine body cavity, a second grooved wheel positioned on the upper side of the first grooved wheel is arranged on the fifth transmission shaft, a transmission belt is connected between the second grooved wheel and the first grooved wheel in a sliding way, and the left side and the right side of the support table are rotatably connected with a sixth transmission shaft which is positioned on one side of the transmission belt close to the first motor, and a third grooved wheel is arranged on the sixth transmission shaft.